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helper.go
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helper.go
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package api
import (
"bytes"
"encoding/json"
"fmt"
"net/url"
"regexp"
"sort"
"strings"
"k8s.io/kubernetes/pkg/api/errors"
"k8s.io/kubernetes/pkg/api/unversioned"
"k8s.io/kubernetes/pkg/util/sets"
"github.com/blang/semver"
"github.com/docker/distribution/digest"
"github.com/docker/distribution/manifest/schema1"
"github.com/docker/distribution/manifest/schema2"
"github.com/golang/glog"
"github.com/openshift/origin/pkg/image/reference"
)
const (
// DockerDefaultNamespace is the value for namespace when a single segment name is provided.
DockerDefaultNamespace = "library"
// DockerDefaultRegistry is the value for the registry when none was provided.
DockerDefaultRegistry = "docker.io"
// DockerDefaultV1Registry is the host name of the default v1 registry
DockerDefaultV1Registry = "index." + DockerDefaultRegistry
// DockerDefaultV2Registry is the host name of the default v2 registry
DockerDefaultV2Registry = "registry-1." + DockerDefaultRegistry
// containerImageEntrypointAnnotationFormatKey is a format used to identify the entrypoint of a particular
// container in a pod template. It is a JSON array of strings.
containerImageEntrypointAnnotationFormatKey = "openshift.io/container.%s.image.entrypoint"
)
// DefaultRegistry returns the default Docker registry (host or host:port), or false if it is not available.
type DefaultRegistry interface {
DefaultRegistry() (string, bool)
}
// DefaultRegistryFunc implements DefaultRegistry for a simple function.
type DefaultRegistryFunc func() (string, bool)
// DefaultRegistry implements the DefaultRegistry interface for a function.
func (fn DefaultRegistryFunc) DefaultRegistry() (string, bool) {
return fn()
}
// ParseImageStreamImageName splits a string into its name component and ID component, and returns an error
// if the string is not in the right form.
func ParseImageStreamImageName(input string) (name string, id string, err error) {
segments := strings.SplitN(input, "@", 3)
switch len(segments) {
case 2:
name = segments[0]
id = segments[1]
if len(name) == 0 || len(id) == 0 {
err = fmt.Errorf("image stream image name %q must have a name and ID", input)
}
default:
err = fmt.Errorf("expected exactly one @ in the isimage name %q", input)
}
return
}
// ParseImageStreamTagName splits a string into its name component and tag component, and returns an error
// if the string is not in the right form.
func ParseImageStreamTagName(istag string) (name string, tag string, err error) {
if strings.Contains(istag, "@") {
err = fmt.Errorf("%q is an image stream image, not an image stream tag", istag)
return
}
segments := strings.SplitN(istag, ":", 3)
switch len(segments) {
case 2:
name = segments[0]
tag = segments[1]
if len(name) == 0 || len(tag) == 0 {
err = fmt.Errorf("image stream tag name %q must have a name and a tag", istag)
}
default:
err = fmt.Errorf("expected exactly one : delimiter in the istag %q", istag)
}
return
}
// MakeImageStreamImageName creates a name for image stream image object from an image stream name and an id.
func MakeImageStreamImageName(name, id string) string {
return fmt.Sprintf("%s@%s", name, id)
}
// IsRegistryDockerHub returns true if the given registry name belongs to
// Docker hub.
func IsRegistryDockerHub(registry string) bool {
switch registry {
case DockerDefaultRegistry, DockerDefaultV1Registry, DockerDefaultV2Registry:
return true
default:
return false
}
}
// ParseDockerImageReference parses a Docker pull spec string into a
// DockerImageReference.
func ParseDockerImageReference(spec string) (DockerImageReference, error) {
var ref DockerImageReference
namedRef, err := reference.ParseNamedDockerImageReference(spec)
if err != nil {
return ref, err
}
ref.Registry = namedRef.Registry
ref.Namespace = namedRef.Namespace
ref.Name = namedRef.Name
ref.Tag = namedRef.Tag
ref.ID = namedRef.ID
return ref, nil
}
// Equal returns true if the other DockerImageReference is equivalent to the
// reference r. The comparison applies defaults to the Docker image reference,
// so that e.g., "foobar" equals "docker.io/library/foobar:latest".
func (r DockerImageReference) Equal(other DockerImageReference) bool {
defaultedRef := r.DockerClientDefaults()
otherDefaultedRef := other.DockerClientDefaults()
return defaultedRef == otherDefaultedRef
}
// DockerClientDefaults sets the default values used by the Docker client.
func (r DockerImageReference) DockerClientDefaults() DockerImageReference {
if len(r.Registry) == 0 {
r.Registry = DockerDefaultRegistry
}
if len(r.Namespace) == 0 && IsRegistryDockerHub(r.Registry) {
r.Namespace = DockerDefaultNamespace
}
if len(r.Tag) == 0 {
r.Tag = DefaultImageTag
}
return r
}
// Minimal reduces a DockerImageReference to its minimalist form.
func (r DockerImageReference) Minimal() DockerImageReference {
if r.Tag == DefaultImageTag {
r.Tag = ""
}
return r
}
// AsRepository returns the reference without tags or IDs.
func (r DockerImageReference) AsRepository() DockerImageReference {
r.Tag = ""
r.ID = ""
return r
}
// RepositoryName returns the registry relative name
func (r DockerImageReference) RepositoryName() string {
r.Tag = ""
r.ID = ""
r.Registry = ""
return r.Exact()
}
// RepositoryName returns the registry relative name
func (r DockerImageReference) RegistryURL() *url.URL {
return &url.URL{
Scheme: "https",
Host: r.AsV2().Registry,
}
}
// DaemonMinimal clears defaults that Docker assumes.
func (r DockerImageReference) DaemonMinimal() DockerImageReference {
switch r.Registry {
case DockerDefaultV1Registry, DockerDefaultV2Registry:
r.Registry = DockerDefaultRegistry
}
if IsRegistryDockerHub(r.Registry) && r.Namespace == DockerDefaultNamespace {
r.Namespace = ""
}
return r.Minimal()
}
func (r DockerImageReference) AsV2() DockerImageReference {
switch r.Registry {
case DockerDefaultV1Registry, DockerDefaultRegistry:
r.Registry = DockerDefaultV2Registry
}
return r
}
// MostSpecific returns the most specific image reference that can be constructed from the
// current ref, preferring an ID over a Tag. Allows client code dealing with both tags and IDs
// to get the most specific reference easily.
func (r DockerImageReference) MostSpecific() DockerImageReference {
if len(r.ID) == 0 {
return r
}
if _, err := digest.ParseDigest(r.ID); err == nil {
r.Tag = ""
return r
}
if len(r.Tag) == 0 {
r.Tag, r.ID = r.ID, ""
return r
}
return r
}
// NameString returns the name of the reference with its tag or ID.
func (r DockerImageReference) NameString() string {
switch {
case len(r.Name) == 0:
return ""
case len(r.Tag) > 0:
return r.Name + ":" + r.Tag
case len(r.ID) > 0:
var ref string
if _, err := digest.ParseDigest(r.ID); err == nil {
// if it parses as a digest, its v2 pull by id
ref = "@" + r.ID
} else {
// if it doesn't parse as a digest, it's presumably a v1 registry by-id tag
ref = ":" + r.ID
}
return r.Name + ref
default:
return r.Name
}
}
// Exact returns a string representation of the set fields on the DockerImageReference
func (r DockerImageReference) Exact() string {
name := r.NameString()
if len(name) == 0 {
return name
}
s := r.Registry
if len(s) > 0 {
s += "/"
}
if len(r.Namespace) != 0 {
s += r.Namespace + "/"
}
return s + name
}
// String converts a DockerImageReference to a Docker pull spec (which implies a default namespace
// according to V1 Docker registry rules). Use Exact() if you want no defaulting.
func (r DockerImageReference) String() string {
if len(r.Namespace) == 0 && IsRegistryDockerHub(r.Registry) {
r.Namespace = DockerDefaultNamespace
}
return r.Exact()
}
// SplitImageStreamTag turns the name of an ImageStreamTag into Name and Tag.
// It returns false if the tag was not properly specified in the name.
func SplitImageStreamTag(nameAndTag string) (name string, tag string, ok bool) {
parts := strings.SplitN(nameAndTag, ":", 2)
name = parts[0]
if len(parts) > 1 {
tag = parts[1]
}
if len(tag) == 0 {
tag = DefaultImageTag
}
return name, tag, len(parts) == 2
}
// SplitImageStreamImage turns the name of an ImageStreamImage into Name and ID.
// It returns false if the ID was not properly specified in the name.
func SplitImageStreamImage(nameAndID string) (name string, id string, ok bool) {
parts := strings.SplitN(nameAndID, "@", 2)
name = parts[0]
if len(parts) > 1 {
id = parts[1]
}
return name, id, len(parts) == 2
}
// JoinImageStreamTag turns a name and tag into the name of an ImageStreamTag
func JoinImageStreamTag(name, tag string) string {
if len(tag) == 0 {
tag = DefaultImageTag
}
return fmt.Sprintf("%s:%s", name, tag)
}
// NormalizeImageStreamTag normalizes an image stream tag by defaulting to 'latest'
// if no tag has been specified.
func NormalizeImageStreamTag(name string) string {
stripped, tag, ok := SplitImageStreamTag(name)
if !ok {
// Default to latest
return JoinImageStreamTag(stripped, tag)
}
return name
}
// ManifestMatchesImage returns true if the provided manifest matches the name of the image.
func ManifestMatchesImage(image *Image, newManifest []byte) (bool, error) {
dgst, err := digest.ParseDigest(image.Name)
if err != nil {
return false, err
}
v, err := digest.NewDigestVerifier(dgst)
if err != nil {
return false, err
}
var canonical []byte
switch image.DockerImageManifestMediaType {
case schema2.MediaTypeManifest:
var m schema2.DeserializedManifest
if err := json.Unmarshal(newManifest, &m); err != nil {
return false, err
}
_, canonical, err = m.Payload()
if err != nil {
return false, err
}
case schema1.MediaTypeManifest, "":
var m schema1.SignedManifest
if err := json.Unmarshal(newManifest, &m); err != nil {
return false, err
}
canonical = m.Canonical
default:
return false, fmt.Errorf("unsupported manifest mediatype: %s", image.DockerImageManifestMediaType)
}
if _, err := v.Write(canonical); err != nil {
return false, err
}
return v.Verified(), nil
}
// ImageConfigMatchesImage returns true if the provided image config matches a digest
// stored in the manifest of the image.
func ImageConfigMatchesImage(image *Image, imageConfig []byte) (bool, error) {
if image.DockerImageManifestMediaType != schema2.MediaTypeManifest {
return false, nil
}
var m schema2.DeserializedManifest
if err := json.Unmarshal([]byte(image.DockerImageManifest), &m); err != nil {
return false, err
}
v, err := digest.NewDigestVerifier(m.Config.Digest)
if err != nil {
return false, err
}
if _, err := v.Write(imageConfig); err != nil {
return false, err
}
return v.Verified(), nil
}
// ImageWithMetadata mutates the given image. It parses raw DockerImageManifest data stored in the image and
// fills its DockerImageMetadata and other fields.
func ImageWithMetadata(image *Image) error {
if len(image.DockerImageManifest) == 0 {
return nil
}
if len(image.DockerImageLayers) > 0 && image.DockerImageMetadata.Size > 0 && len(image.DockerImageManifestMediaType) > 0 {
glog.V(5).Infof("Image metadata already filled for %s", image.Name)
// don't update image already filled
return nil
}
manifestData := image.DockerImageManifest
manifest := DockerImageManifest{}
if err := json.Unmarshal([]byte(manifestData), &manifest); err != nil {
return err
}
switch manifest.SchemaVersion {
case 0:
// legacy config object
case 1:
image.DockerImageManifestMediaType = schema1.MediaTypeManifest
if len(manifest.History) == 0 {
// should never have an empty history, but just in case...
return nil
}
v1Metadata := DockerV1CompatibilityImage{}
if err := json.Unmarshal([]byte(manifest.History[0].DockerV1Compatibility), &v1Metadata); err != nil {
return err
}
image.DockerImageLayers = make([]ImageLayer, len(manifest.FSLayers))
for i, layer := range manifest.FSLayers {
image.DockerImageLayers[i].MediaType = schema1.MediaTypeManifestLayer
image.DockerImageLayers[i].Name = layer.DockerBlobSum
}
if len(manifest.History) == len(image.DockerImageLayers) {
// This code does not work for images converted from v2 to v1, since V1Compatibility does not
// contain size information in this case.
image.DockerImageLayers[0].LayerSize = v1Metadata.Size
var size = DockerV1CompatibilityImageSize{}
for i, obj := range manifest.History[1:] {
size.Size = 0
if err := json.Unmarshal([]byte(obj.DockerV1Compatibility), &size); err != nil {
continue
}
image.DockerImageLayers[i+1].LayerSize = size.Size
}
} else {
glog.V(4).Infof("Imported image has mismatched layer count and history count, not updating image metadata: %s", image.Name)
}
// reverse order of the layers for v1 (lowest = 0, highest = i)
for i, j := 0, len(image.DockerImageLayers)-1; i < j; i, j = i+1, j-1 {
image.DockerImageLayers[i], image.DockerImageLayers[j] = image.DockerImageLayers[j], image.DockerImageLayers[i]
}
image.DockerImageMetadata.ID = v1Metadata.ID
image.DockerImageMetadata.Parent = v1Metadata.Parent
image.DockerImageMetadata.Comment = v1Metadata.Comment
image.DockerImageMetadata.Created = v1Metadata.Created
image.DockerImageMetadata.Container = v1Metadata.Container
image.DockerImageMetadata.ContainerConfig = v1Metadata.ContainerConfig
image.DockerImageMetadata.DockerVersion = v1Metadata.DockerVersion
image.DockerImageMetadata.Author = v1Metadata.Author
image.DockerImageMetadata.Config = v1Metadata.Config
image.DockerImageMetadata.Architecture = v1Metadata.Architecture
if len(image.DockerImageLayers) > 0 {
size := int64(0)
layerSet := sets.NewString()
for _, layer := range image.DockerImageLayers {
if layerSet.Has(layer.Name) {
continue
}
layerSet.Insert(layer.Name)
size += layer.LayerSize
}
image.DockerImageMetadata.Size = size
} else {
image.DockerImageMetadata.Size = v1Metadata.Size
}
case 2:
image.DockerImageManifestMediaType = schema2.MediaTypeManifest
config := DockerImageConfig{}
if err := json.Unmarshal([]byte(image.DockerImageConfig), &config); err != nil {
return err
}
image.DockerImageLayers = make([]ImageLayer, len(manifest.Layers))
for i, layer := range manifest.Layers {
image.DockerImageLayers[i].Name = layer.Digest
image.DockerImageLayers[i].LayerSize = layer.Size
image.DockerImageLayers[i].MediaType = layer.MediaType
}
// reverse order of the layers for v1 (lowest = 0, highest = i)
for i, j := 0, len(image.DockerImageLayers)-1; i < j; i, j = i+1, j-1 {
image.DockerImageLayers[i], image.DockerImageLayers[j] = image.DockerImageLayers[j], image.DockerImageLayers[i]
}
image.DockerImageMetadata.ID = manifest.Config.Digest
image.DockerImageMetadata.Parent = config.Parent
image.DockerImageMetadata.Comment = config.Comment
image.DockerImageMetadata.Created = config.Created
image.DockerImageMetadata.Container = config.Container
image.DockerImageMetadata.ContainerConfig = config.ContainerConfig
image.DockerImageMetadata.DockerVersion = config.DockerVersion
image.DockerImageMetadata.Author = config.Author
image.DockerImageMetadata.Config = config.Config
image.DockerImageMetadata.Architecture = config.Architecture
image.DockerImageMetadata.Size = int64(len(image.DockerImageConfig))
layerSet := sets.NewString(image.DockerImageMetadata.ID)
if len(image.DockerImageLayers) > 0 {
for _, layer := range image.DockerImageLayers {
if layerSet.Has(layer.Name) {
continue
}
layerSet.Insert(layer.Name)
image.DockerImageMetadata.Size += layer.LayerSize
}
}
default:
return fmt.Errorf("unrecognized Docker image manifest schema %d for %q (%s)", manifest.SchemaVersion, image.Name, image.DockerImageReference)
}
return nil
}
// DockerImageReferenceForStream returns a DockerImageReference that represents
// the ImageStream or false, if no valid reference exists.
func DockerImageReferenceForStream(stream *ImageStream) (DockerImageReference, error) {
spec := stream.Status.DockerImageRepository
if len(spec) == 0 {
spec = stream.Spec.DockerImageRepository
}
if len(spec) == 0 {
return DockerImageReference{}, fmt.Errorf("no possible pull spec for %s/%s", stream.Namespace, stream.Name)
}
return ParseDockerImageReference(spec)
}
// FollowTagReference walks through the defined tags on a stream, following any referential tags in the stream.
// Will return ok if the tag is valid, multiple if the tag had at least reference, and ref and finalTag will be the last
// tag seen. If a circular loop is found ok will be false.
func FollowTagReference(stream *ImageStream, tag string) (finalTag string, ref *TagReference, ok bool, multiple bool) {
seen := sets.NewString()
for {
if seen.Has(tag) {
// circular reference
return tag, nil, false, multiple
}
seen.Insert(tag)
tagRef, ok := stream.Spec.Tags[tag]
if !ok {
// no tag at the end of the rainbow
return tag, nil, false, multiple
}
if tagRef.From == nil || tagRef.From.Kind != "ImageStreamTag" || strings.Contains(tagRef.From.Name, ":") {
// terminating tag
return tag, &tagRef, true, multiple
}
// follow the referenec
tag = tagRef.From.Name
multiple = true
}
}
// LatestTaggedImage returns the most recent TagEvent for the specified image
// repository and tag. Will resolve lookups for the empty tag. Returns nil
// if tag isn't present in stream.status.tags.
func LatestTaggedImage(stream *ImageStream, tag string) *TagEvent {
if len(tag) == 0 {
tag = DefaultImageTag
}
// find the most recent tag event with an image reference
if stream.Status.Tags != nil {
if history, ok := stream.Status.Tags[tag]; ok {
if len(history.Items) == 0 {
return nil
}
return &history.Items[0]
}
}
return nil
}
// DifferentTagEvent returns true if the supplied tag event matches the current stream tag event.
// Generation is not compared.
func DifferentTagEvent(stream *ImageStream, tag string, next TagEvent) bool {
tags, ok := stream.Status.Tags[tag]
if !ok || len(tags.Items) == 0 {
return true
}
previous := &tags.Items[0]
sameRef := previous.DockerImageReference == next.DockerImageReference
sameImage := previous.Image == next.Image
return !(sameRef && sameImage)
}
// DifferentTagEvent compares the generation on tag's spec vs its status.
// Returns if spec generation is newer than status one.
func DifferentTagGeneration(stream *ImageStream, tag string) bool {
specTag, ok := stream.Spec.Tags[tag]
if !ok || specTag.Generation == nil {
return true
}
statusTag, ok := stream.Status.Tags[tag]
if !ok || len(statusTag.Items) == 0 {
return true
}
return *specTag.Generation > statusTag.Items[0].Generation
}
// AddTagEventToImageStream attempts to update the given image stream with a tag event. It will
// collapse duplicate entries - returning true if a change was made or false if no change
// occurred. Any successful tag resets the status field.
func AddTagEventToImageStream(stream *ImageStream, tag string, next TagEvent) bool {
if stream.Status.Tags == nil {
stream.Status.Tags = make(map[string]TagEventList)
}
tags, ok := stream.Status.Tags[tag]
if !ok || len(tags.Items) == 0 {
stream.Status.Tags[tag] = TagEventList{Items: []TagEvent{next}}
return true
}
previous := &tags.Items[0]
sameRef := previous.DockerImageReference == next.DockerImageReference
sameImage := previous.Image == next.Image
sameGen := previous.Generation == next.Generation
switch {
// shouldn't change the tag
case sameRef && sameImage && sameGen:
return false
case sameImage && sameRef:
// collapse the tag
case sameRef:
previous.Image = next.Image
case sameImage:
previous.DockerImageReference = next.DockerImageReference
default:
// shouldn't collapse the tag
tags.Conditions = nil
tags.Items = append([]TagEvent{next}, tags.Items...)
stream.Status.Tags[tag] = tags
return true
}
previous.Generation = next.Generation
tags.Conditions = nil
stream.Status.Tags[tag] = tags
return true
}
// UpdateChangedTrackingTags identifies any tags in the status that have changed and
// ensures any referenced tracking tags are also updated. It returns the number of
// updates applied.
func UpdateChangedTrackingTags(new, old *ImageStream) int {
changes := 0
for newTag, newImages := range new.Status.Tags {
if len(newImages.Items) == 0 {
continue
}
if old != nil {
oldImages := old.Status.Tags[newTag]
changed, deleted := tagsChanged(newImages.Items, oldImages.Items)
if !changed || deleted {
continue
}
}
changes += UpdateTrackingTags(new, newTag, newImages.Items[0])
}
return changes
}
// tagsChanged returns true if the two lists differ, and if the newer list is empty
// then deleted is returned true as well.
func tagsChanged(new, old []TagEvent) (changed bool, deleted bool) {
switch {
case len(old) == 0 && len(new) == 0:
return false, false
case len(new) == 0:
return true, true
case len(old) == 0:
return true, false
default:
return new[0] != old[0], false
}
}
// UpdateTrackingTags sets updatedImage as the most recent TagEvent for all tags
// in stream.spec.tags that have from.kind = "ImageStreamTag" and the tag in from.name
// = updatedTag. from.name may be either <tag> or <stream name>:<tag>. For now, only
// references to tags in the current stream are supported.
//
// For example, if stream.spec.tags[latest].from.name = 2.0, whenever an image is pushed
// to this stream with the tag 2.0, status.tags[latest].items[0] will also be updated
// to point at the same image that was just pushed for 2.0.
//
// Returns the number of tags changed.
func UpdateTrackingTags(stream *ImageStream, updatedTag string, updatedImage TagEvent) int {
updated := 0
glog.V(5).Infof("UpdateTrackingTags: stream=%s/%s, updatedTag=%s, updatedImage.dockerImageReference=%s, updatedImage.image=%s", stream.Namespace, stream.Name, updatedTag, updatedImage.DockerImageReference, updatedImage.Image)
for specTag, tagRef := range stream.Spec.Tags {
glog.V(5).Infof("Examining spec tag %q, tagRef=%#v", specTag, tagRef)
// no from
if tagRef.From == nil {
glog.V(5).Infof("tagRef.From is nil, skipping")
continue
}
// wrong kind
if tagRef.From.Kind != "ImageStreamTag" {
glog.V(5).Infof("tagRef.Kind %q isn't ImageStreamTag, skipping", tagRef.From.Kind)
continue
}
tagRefNamespace := tagRef.From.Namespace
if len(tagRefNamespace) == 0 {
tagRefNamespace = stream.Namespace
}
// different namespace
if tagRefNamespace != stream.Namespace {
glog.V(5).Infof("tagRefNamespace %q doesn't match stream namespace %q - skipping", tagRefNamespace, stream.Namespace)
continue
}
// TODO: this is probably wrong - we should require ":<tag>", but we can't break old clients
tagRefName := tagRef.From.Name
parts := strings.Split(tagRefName, ":")
tag := ""
switch len(parts) {
case 2:
// <stream>:<tag>
tagRefName = parts[0]
tag = parts[1]
default:
// <tag> (this stream)
tag = tagRefName
tagRefName = stream.Name
}
glog.V(5).Infof("tagRefName=%q, tag=%q", tagRefName, tag)
// different stream
if tagRefName != stream.Name {
glog.V(5).Infof("tagRefName %q doesn't match stream name %q - skipping", tagRefName, stream.Name)
continue
}
// different tag
if tag != updatedTag {
glog.V(5).Infof("tag %q doesn't match updated tag %q - skipping", tag, updatedTag)
continue
}
if AddTagEventToImageStream(stream, specTag, updatedImage) {
glog.V(5).Infof("stream updated")
updated++
}
}
return updated
}
// ResolveImageID returns latest TagEvent for specified imageID and an error if
// there's more than one image matching the ID or when one does not exist.
func ResolveImageID(stream *ImageStream, imageID string) (*TagEvent, error) {
var event *TagEvent
set := sets.NewString()
for _, history := range stream.Status.Tags {
for i := range history.Items {
tagging := &history.Items[i]
if d, err := digest.ParseDigest(tagging.Image); err == nil {
if strings.HasPrefix(d.Hex(), imageID) || strings.HasPrefix(tagging.Image, imageID) {
event = tagging
set.Insert(tagging.Image)
}
continue
}
if strings.HasPrefix(tagging.Image, imageID) {
event = tagging
set.Insert(tagging.Image)
}
}
}
switch len(set) {
case 1:
return &TagEvent{
Created: unversioned.Now(),
DockerImageReference: event.DockerImageReference,
Image: event.Image,
}, nil
case 0:
return nil, errors.NewNotFound(Resource("imagestreamimage"), imageID)
default:
return nil, errors.NewConflict(Resource("imagestreamimage"), imageID, fmt.Errorf("multiple images match the prefix %q: %s", imageID, strings.Join(set.List(), ", ")))
}
}
// MostAccuratePullSpec returns a docker image reference that uses the current ID if possible, the current tag otherwise, and
// returns false if the reference if the spec could not be parsed. The returned spec has all client defaults applied.
func MostAccuratePullSpec(pullSpec string, id, tag string) (string, bool) {
ref, err := ParseDockerImageReference(pullSpec)
if err != nil {
return pullSpec, false
}
if len(id) > 0 {
ref.ID = id
}
if len(tag) > 0 {
ref.Tag = tag
}
return ref.MostSpecific().Exact(), true
}
// ShortDockerImageID returns a short form of the provided DockerImage ID for display
func ShortDockerImageID(image *DockerImage, length int) string {
id := image.ID
if s, err := digest.ParseDigest(id); err == nil {
id = s.Hex()
}
if len(id) > length {
id = id[:length]
}
return id
}
// HasTagCondition returns true if the specified image stream tag has a condition with the same type, status, and
// reason (does not check generation, date, or message).
func HasTagCondition(stream *ImageStream, tag string, condition TagEventCondition) bool {
for _, existing := range stream.Status.Tags[tag].Conditions {
if condition.Type == existing.Type && condition.Status == existing.Status && condition.Reason == existing.Reason {
return true
}
}
return false
}
// SetTagConditions applies the specified conditions to the status of the given tag.
func SetTagConditions(stream *ImageStream, tag string, conditions ...TagEventCondition) {
tagEvents := stream.Status.Tags[tag]
tagEvents.Conditions = conditions
if stream.Status.Tags == nil {
stream.Status.Tags = make(map[string]TagEventList)
}
stream.Status.Tags[tag] = tagEvents
}
// LatestObservedTagGeneration returns the generation value for the given tag that has been observed by the controller
// monitoring the image stream. If the tag has not been observed, the generation is zero.
func LatestObservedTagGeneration(stream *ImageStream, tag string) int64 {
tagEvents, ok := stream.Status.Tags[tag]
if !ok {
return 0
}
// find the most recent generation
lastGen := int64(0)
if items := tagEvents.Items; len(items) > 0 {
tagEvent := items[0]
if tagEvent.Generation > lastGen {
lastGen = tagEvent.Generation
}
}
for _, condition := range tagEvents.Conditions {
if condition.Type != ImportSuccess {
continue
}
if condition.Generation > lastGen {
lastGen = condition.Generation
}
break
}
return lastGen
}
var (
reMajorSemantic = regexp.MustCompile(`^[\d]+$`)
reMinorSemantic = regexp.MustCompile(`^[\d]+\.[\d]+$`)
)
// PrioritizeTags orders a set of image tags with a few conventions:
//
// 1. the "latest" tag, if present, should be first
// 2. any tags that represent a semantic major version ("5", "v5") should be next, in descending order
// 3. any tags that represent a semantic minor version ("5.1", "v5.1") should be next, in descending order
// 4. any tags that represent a full semantic version ("5.1.3-other", "v5.1.3-other") should be next, in descending order
// 5. any remaining tags should be sorted in lexicographic order
//
// The method updates the tags in place.
func PrioritizeTags(tags []string) {
remaining := tags
finalTags := make([]string, 0, len(tags))
for i, tag := range tags {
if tag == DefaultImageTag {
tags[0], tags[i] = tags[i], tags[0]
finalTags = append(finalTags, tags[0])
remaining = tags[1:]
break
}
}
exact := make(map[string]string)
var major, minor, micro semver.Versions
other := make([]string, 0, len(remaining))
for _, tag := range remaining {
short := strings.TrimLeft(tag, "v")
v, err := semver.Parse(short)
switch {
case err == nil:
exact[v.String()] = tag
micro = append(micro, v)
continue
case reMajorSemantic.MatchString(short):
if v, err = semver.Parse(short + ".0.0"); err == nil {
exact[v.String()] = tag
major = append(major, v)
continue
}
case reMinorSemantic.MatchString(short):
if v, err = semver.Parse(short + ".0"); err == nil {
exact[v.String()] = tag
minor = append(minor, v)
continue
}
}
other = append(other, tag)
}
sort.Sort(sort.Reverse(major))
sort.Sort(sort.Reverse(minor))
sort.Sort(sort.Reverse(micro))
sort.Sort(sort.StringSlice(other))
for _, v := range major {
finalTags = append(finalTags, exact[v.String()])
}
for _, v := range minor {
finalTags = append(finalTags, exact[v.String()])
}
for _, v := range micro {
finalTags = append(finalTags, exact[v.String()])
}
for _, v := range other {
finalTags = append(finalTags, v)
}
copy(tags, finalTags)
}
func ContainerImageEntrypointByAnnotation(annotations map[string]string, containerName string) ([]string, bool) {
s, ok := annotations[fmt.Sprintf(containerImageEntrypointAnnotationFormatKey, containerName)]
if !ok {
return nil, false
}
var arr []string
if err := json.Unmarshal([]byte(s), &arr); err != nil {
return nil, false
}
return arr, true
}
func SetContainerImageEntrypointAnnotation(annotations map[string]string, containerName string, cmd []string) {
key := fmt.Sprintf(containerImageEntrypointAnnotationFormatKey, containerName)
if len(cmd) == 0 {
delete(annotations, key)
return
}
s, _ := json.Marshal(cmd)
annotations[key] = string(s)
}
func LabelForStream(stream *ImageStream) string {
return fmt.Sprintf("%s/%s", stream.Namespace, stream.Name)
}
// JoinImageSignatureName joins image name and custom signature name into one string with @ separator.
func JoinImageSignatureName(imageName, signatureName string) (string, error) {
if len(imageName) == 0 {
return "", fmt.Errorf("imageName may not be empty")
}
if len(signatureName) == 0 {
return "", fmt.Errorf("signatureName may not be empty")
}
if strings.Count(imageName, "@") > 0 || strings.Count(signatureName, "@") > 0 {
return "", fmt.Errorf("neither imageName nor signatureName can contain '@'")
}
return fmt.Sprintf("%s@%s", imageName, signatureName), nil
}
// SplitImageSignatureName splits given signature name into image name and signature name.
func SplitImageSignatureName(imageSignatureName string) (imageName, signatureName string, err error) {
segments := strings.Split(imageSignatureName, "@")
switch len(segments) {
case 2:
signatureName = segments[1]
imageName = segments[0]
if len(imageName) == 0 || len(signatureName) == 0 {
err = fmt.Errorf("image signature name %q must have an image name and signature name", imageSignatureName)
}
default:
err = fmt.Errorf("expected exactly one @ in the image signature name %q", imageSignatureName)
}
return
}
// IndexOfImageSignatureByName returns an index of signature identified by name in the image if present. It
// returns -1 otherwise.
func IndexOfImageSignatureByName(signatures []ImageSignature, name string) int {
for i := range signatures {
if signatures[i].Name == name {
return i
}
}
return -1
}
// IndexOfImageSignature returns index of signature identified by type and blob in the image if present. It
// returns -1 otherwise.
func IndexOfImageSignature(signatures []ImageSignature, sType string, sContent []byte) int {